STAT3 signaling is activated in human skeletal muscle following acute resistance exercise.
about
Association of interleukin-6 signalling with the muscle stem cell response following muscle-lengthening contractions in humansAn unexplored role for Peroxiredoxin in exercise-induced redox signalling?Multifaceted role of insulin-like growth factors and mammalian target of rapamycin in skeletal muscleOxygen consumption and usage during physical exercise: the balance between oxidative stress and ROS-dependent adaptive signalingEffect of chronic contractile activity on mRNA stability in skeletal muscleEffects of intermittent training on anaerobic performance and MCT transporters in athletes.Hormone replacement therapy and physical function in healthy older men. Time to talk hormones?Eccentric exercise activates novel transcriptional regulation of hypertrophic signaling pathways not affected by hormone changes.Differential genomic responses in old vs. young humans despite similar levels of modest muscle damage after resistance loadingIL-6 induced STAT3 signalling is associated with the proliferation of human muscle satellite cells following acute muscle damageJunB transcription factor maintains skeletal muscle mass and promotes hypertrophy.Activation of host tissue trophic factors through JAK-STAT3 signaling: a mechanism of mesenchymal stem cell-mediated cardiac repair.Early activation of rat skeletal muscle IL-6/STAT1/STAT3 dependent gene expression in resistance exercise linked to hypertrophyTWEAK-Fn14 pathway activation after exercise in human skeletal muscle: insights from two exercise modes and a time course investigation.Therapeutic potential of c-Myc inhibition in the treatment of hypertrophic cardiomyopathy.Slow-adhering stem cells derived from injured skeletal muscle have improved regenerative capacity.Early myogenic responses to acute exercise before and after resistance training in young men.The potential role of aerobic exercise to modulate cardiotoxicity of molecularly targeted cancer therapeutics.Cross talk of signals between EGFR and IL-6R through JAK2/STAT3 mediate epithelial-mesenchymal transition in ovarian carcinomas.Liver kinase B1 inhibits the expression of inflammation-related genes postcontraction in skeletal muscle.Expression of growth-related genes in young and older human skeletal muscle following an acute stimulation of protein synthesisBasal and exercise-induced regulation of skeletal muscle capillarization.Enhancing the efficacy of mesenchymal stem cell therapy.Influence of age on leptin induced skeletal muscle signalling.Overload-mediated skeletal muscle hypertrophy is not impaired by loss of myofiber STAT3.Muscle atrophy in patients with Type 2 Diabetes Mellitus: roles of inflammatory pathways, physical activity and exercise.Electrical stimulation induces IL-6 in skeletal muscle through extracellular ATP by activating Ca(2+) signals and an IL-6 autocrine loop.Ibuprofen supplementation and its effects on NF-κB activation in skeletal muscle following resistance exercise.Host tissue response in stem cell therapy.Inflammatory markers in skeletal muscle of older adults.Interleukin-6 promotes myogenic differentiation of mouse skeletal muscle cells: role of the STAT3 pathway.Effect of N-acetylcysteine infusion on exercise-induced modulation of insulin sensitivity and signaling pathways in human skeletal muscle.Total training load may explain similar strength gains and muscle hypertrophy seen in aged rats submitted to resistance training and anabolic steroids.Is sprint exercise a leptin signaling mimetic in human skeletal muscle?Protein-leucine ingestion activates a regenerative inflammo-myogenic transcriptome in skeletal muscle following intense endurance exercise.Interleukin-6 mediates exercise preconditioning against myocardial ischemia reperfusion injury.Calprotectin is released from human skeletal muscle tissue during exercise.Unchanged [3H]ouabain binding site content but reduced Na+-K+ pump α2-protein abundance in skeletal muscle in older adults.Preclinical characterization of the JAK/STAT inhibitor SGI-1252 on skeletal muscle function, morphology, and satellite cell content.STAT3 in Skeletal Muscle Function and Disorders
P2860
Q21143763-2DB56624-5481-4BF4-85A2-3410805D73F6Q26770037-69D5B0FF-8B11-4412-B654-BEAE9416D79BQ27009396-1BE36C6F-7131-452A-926D-49D50D9281C0Q28394742-0021FB61-51A0-42BC-8714-55A03033D5B6Q28580660-2E069733-39C7-49CD-B66B-8A11FB987412Q33567733-DF4B8037-A288-40B3-851B-285FF0C6F621Q33569163-208805E5-0F78-4255-9290-66D1D2BAED39Q33587535-776DF3DC-D98F-496A-8624-952ED19C0CC5Q33675332-A5CE7B56-D2F8-4597-BA73-27C77599346FQ33847182-447F24C9-93C9-4995-8890-A4DF98ACC67CQ34191615-CCC796ED-0D96-446F-9E4A-F9EC7A10E5C7Q34357753-1659D5C4-9BC5-4CD7-B505-82A0BC0B4019Q34603074-86D0C561-1C4E-4E41-A301-6C5F8981A472Q35138483-DCE8E7F8-C621-48C4-850A-AB68F464D21BQ35165627-2D2EDED0-857C-43B9-B150-DA6235530C3FQ35167984-EE8F9102-D356-4B3A-B042-FE90EC5CFACBQ36144522-3FA01288-A495-4037-86E9-977102F217B0Q36630478-32B1245C-ABAD-4492-86BE-CC71EAF445F8Q37080992-7024AD0F-B32A-4306-8F89-6FAE85F0F32FQ37218021-6B506157-E81B-40E8-9C0D-2BBA5A2BDF45Q37233128-951175D0-4808-4C3B-B863-FC2AA809390CQ37332640-27FCA2D1-DA6C-4D4C-A443-0219DB0ABF24Q37723500-80C91298-7F9E-4397-82C4-E26AFB8006DCQ38308538-D644E07E-4E14-4D3E-8F5F-88C0501B5EF3Q38703958-0FFAE4F7-83DC-4BD6-924F-54026FBF1927Q38727298-3B859925-3F42-4016-BF71-F2697941F74BQ38799325-3B86325E-1E67-48C1-BFF3-40992AB6C48AQ39129171-DF948019-225B-4519-A479-7F291E5442CBQ41919865-066469BB-3206-435F-9A98-6ACF03F75EEDQ44062315-2522C022-B481-49A6-BCE3-4A2FC18F7D53Q44301725-5E447CDA-9DCB-4F3D-820F-E17025DCEE78Q46710635-5C500862-1BC9-41C3-8987-03005152625FQ48222408-0B3767E3-40DD-429C-B6C2-3ED647AEBA44Q51372261-558B7B07-8988-4193-A0A8-D86BAD1F4F97Q53297827-DFA78A34-C9B0-49C1-8AFA-E2FC9A1A306CQ53562942-4712A1A3-817E-4387-A69F-368E1AA907AAQ53803699-79BF0FB8-3658-4754-BEBE-C7CF79C5F365Q54294395-AF111FEE-B1BC-4A9E-9BFB-26805A8E1D76Q55267055-EBBAF2BF-117C-4A9F-AD00-780C34C03953Q58802831-E16C2506-B783-4018-88A9-A8AE7156672F
P2860
STAT3 signaling is activated in human skeletal muscle following acute resistance exercise.
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年学术文章
@wuu
2007年学术文章
@zh
2007年学术文章
@zh-cn
2007年学术文章
@zh-hans
2007年学术文章
@zh-my
2007年学术文章
@zh-sg
2007年學術文章
@yue
2007年學術文章
@zh-hant
name
STAT3 signaling is activated i ...... ing acute resistance exercise.
@en
STAT3 signaling is activated i ...... ing acute resistance exercise.
@nl
type
label
STAT3 signaling is activated i ...... ing acute resistance exercise.
@en
STAT3 signaling is activated i ...... ing acute resistance exercise.
@nl
prefLabel
STAT3 signaling is activated i ...... ing acute resistance exercise.
@en
STAT3 signaling is activated i ...... ing acute resistance exercise.
@nl
P50
P1476
STAT3 signaling is activated i ...... ing acute resistance exercise.
@en
P2093
Marissa K Trenerry
P304
P356
10.1152/JAPPLPHYSIOL.01147.2006
P407
P577
2007-01-04T00:00:00Z